Computer Technology Limited
Computer Technology Limited was a British computer company founded in 1965. In 1984 it merged into its holding company and was called Information Technology Limited.
Founder Iann Barron had worked for Elliott Automation but left to form CTL when he couldn't persuade Elliott to incorporate his ideas in their next generation of computers. CTL was financed by the American Research and Development Corporation and Pergamon Press.
The first CTL computer, the Modular One, appeared for sale in 1968.
Modular One
The Modular One was a 16-bit computer built with Emitter Coupled Logic and was competitive with other first generation minicomputers.Features
A key feature, from which it derived its name, was that it was composed of separate processor, memory and peripheral modules sharing a common interface and physical form factor, so allowing them to be put together in any combination, housed one or two high in modular racking. Standard modules were roughly 50cm wide and deep, 70cm tall, and complete with power supply, typically weighed in excess of 25kg. Modules were interconnected using a single type of interface, comprising two identical cards to be plugged into two modules to be connected, these cards themselves linked by a flat ribbon cable either one or two metres long. Thus, memory was just another peripheral but was both input and output.Every interaction over these interfaces comprised a 3-way handshake, which in the case of a processor accessing a memory module, consisted of send address, receive data, and send new data, a scheme well suited to the destructive read followed by rewrite required by magnetic-core memory of the time. These three phases were mediated by voltage edges rather than pulses, as this was thought to be faster. Furthermore, the input and output impedances of ECL were comparable to the characteristic impedance of ribbon cable. This, together with the small voltage swings between the "0" and "1" states made for low noise, reflection-free communication.
Processors naturally had a number of interface slots bussed together, allowing connection to memory and peripheral modules as required. Memory modules had several, allowing them to be accessed by more than one processor as well as by disc controllers for DMA. Disc controllers could be connected to two processors as well as memory modules. All modules had a "1.x" type designation, for example, the original processor module was 1.11, memory modules were 1.2x, character peripherals were 1.3x, discs were 1.4x and magnetic tape devices were 1.5x. The standard interface was designated 1.01.
The various building blocks could be assembled and configured to produce a fault-tolerant computer system.
Distinctive features of the processor were memory-mapped I/O and an early version of segmented memory. The processor had 3 segment registers referred to as X, Y and Z. The X segment was read/execute only and used to map code segments. It was not possible to execute code in the Y and Z segments, which were used for data. There were 8 addressing modes allowing access to data mapped by the segment registers in various ways.
The memory segmentation, together with two execution states made possible the implementation of a self-protecting operating system kernel. Such ideas were popular in British computer academia at the time and later were adopted by some US designs such as the Motorola 68000 and Intel 80286. Furthermore, the power system was set up as a peripheral with interrupt capabilities that gave the machine the ability to power down gracefully in an emergency.
Sales history
The Modular One was comparatively expensive. It was somewhat exotic in that its modular design resulted in almost every system delivered being somewhat different, which created a high maintenance burden.Many universities were equipped with Modular One systems, in part due to the government of the time having a 'buy British' policy. Acting as a front-end processor for the ICL 1900 mainframe, driving multiple online terminals or as a remote batch job entry station, was a major market for the Modular One.
It never sold widely outside of the UK, and even in the UK it was surpassed in sales by Digital Equipment Corporation and Data General before the end of the 1970s.
Over the mid 1970s to mid 1980s the systems were cost reduced with TTL bitslice technology and 8-bit microprocessor communications controllers, retreating from the radical modular design, but it never gained a significant market share.
Legacy
Very few Modular One computers now remain, possibly only the example being that restored by Redhawk Systems Ltd.Operating system
The operating system kernel was referred to as the Exec. Several simple ones were developed in the early years of the company. E4, first in-house release around 1973, written entirely in assembler, was a multitasking kernel using Dijkstra semaphores to protect internal data structures from conflicts. It was based on an early version of object-oriented principles, though lacking most of what are now considered essential features of the paradigm, such as inheritance.Objects included Activities, Segments, Files, Semaphores and Clocks. Another object type, the Sphere, was a run-time protection domain within which all other object types existed. Objects could be created in arbitrary quantities, and were each referenced through a Run Time Name, or RTN. Since an object could be referenced by several RTNs belonging to different spheres, they could easily be shared between programs, and were deleted only when the object's reference count of RTNs fell to zero. Linked lists were used very extensively within E4 to manage data structures, in fact the RTN list was about the only linear list there was.
The ease with which multiple processor, store and peripheral modules could be built into a system, plus the need to extend the upper capability limits, prompted the development of a dual processor variant of E4. This was built entirely from standard modules except for a small synchronisation board which prevented both processors operating simultaneously in special state, and a very minor modification to one of the processors' interface to store zero, allowing each processor to address a small dedicated memory area for processor-specific variables such as the current activity. However, the results were somewhat disappointing as E4 naturally spent a significant proportion of its time in special state even though efforts had always made to limit special state routines to 100uS at a time. Even running processor-bound user programs, the performance achieved was only of the order of 150% of that of a single processor, and no dual processor E4 systems were ever sold.
There was some similarity to Unix in the use of device-independent serial byte oriented streams in the file system and interprocess communication, in contrast to the record-oriented file systems then dominant in commercial data processing. E4 also supported real-time priorities and virtual memory at the Segment level.
E4 had a primitive command line interface but a multi-access operating system known as Modus was built on top of it for much greater flexibility and ease of use. This consisted of a "Nucleus" which looked after a collection of "Engines". An Engine was typically associated with a peripheral device and procesed work from a queue, for example taking print jobs from a print queue and printing them. A special case was the Read Engine, which was the command processor. This was either associated with a terminal device, or was a batch processor.
The filing system, SDFS, was not part of the kernel but was a separate program. A multi-key indexed file system MKFS was also developed, and together with a transaction processing system and a report generator, formed the basis of many sales into commercial applications.
Modus and many of the applications were written in the high level language Coral 66. Compilers for COBOL and FORTRAN IV were also available for the Modular One.
Later history
Founder Iann Barron left in 1971, following the collapse of a major customer. He went on to form Inmos and develop the transputer. He was replaced as Chairman by Tom Margerison, from London Weekend Television.During the 1970s CTL operated modestly successfully in a number of niche markets, while larger American competitors, such as Digital Equipment Corporation with their PDP range, increased market share. In 1980 two sibling companies Office Technology Limited and Network Technology Limited, and a holding company Information Technology Limited were created.
In 1981 entrepreneur Tony Davies became Managing Director. Under Davies CTL began buying in hardware, to be re-badged as CTL systems, recognising CTL could not afford to develop hardware at all levels. The first was a Convergent Technologies 8086 system which created a price competitive small system for CTL. In 1984 all the subsidiaries were merged into the holding company Information Technology Limited, replacing the CTL name. Nominally this was an efficiency measure, but it also positioned the company better for a possible public offering on the stock markets.
During the mid 1980s, the company decided that the future lay in open systems and CTL attempted to make the transition to Unix with re-badged systems from Motorola and Sequoia Systems. However, sales of CTL's proprietary systems fell off before the new systems could be ramped up to replace them.
The company was taken over by ACT in 1989, primarily for its customers and extensive support network, which effectively ended CTL's era as a computer manufacturer.